22.4.2.8.4 Air Writing, Devisce Free Handwriting

Chapter Contents (Back)
Air Writing. Handwriting.

Ishida, H.[Hiroyuki], Takahashi, T.[Tomokazu], Ide, I.[Ichiro], Murase, H.[Hiroshi],
A Hilbert warping method for handwriting gesture recognition,
PR(43), No. 8, August 2010, pp. 2799-2806.
Elsevier DOI 1006
BibRef
Earlier:
A Hilbert warping method for camera-based finger-writing recognition,
ICPR08(1-5).
IEEE DOI 0812
Sequence alignment; Classification method; Analytic signal; Gesture recognition BibRef

Chen, M., Al Regib, G., Juang, B.H.,
Air-Writing Recognition Part I: Modeling and Recognition of Characters, Words, and Connecting Motions,
HMS(46), No. 3, June 2016, pp. 403-413.
IEEE DOI 1605
BibRef
And:
Air-Writing Recognition Part II: Detection and Recognition of Writing Activity in Continuous Stream of Motion Data,
HMS(46), No. 3, June 2016, pp. 436-444.
IEEE DOI 1605
Covariance matrices. Atmospheric modeling BibRef

Kane, L., Khanna, P.,
Vision-Based Mid-Air Unistroke Character Input Using Polar Signatures,
HMS(47), No. 6, December 2017, pp. 1077-1088.
IEEE DOI 1712
Gesture recognition, Heuristic algorithms, Hidden Markov models, Man-machine systems, Trajectory, Videos, Writing, Depth sensor, unistroke character input BibRef

Režnáková, M.[Marta], Tencer, L.[Lukas], Plamondon, R.[Réjean], Cheriet, M.[Mohamed],
Forgetting of unused classes in missing data environment using automatically generated data: Application to on-line handwritten gesture command recognition,
PR(72), No. 1, 2017, pp. 355-367.
Elsevier DOI 1708
On-line, learning BibRef

Qu, X.W.[Xi-Wen], Wang, W.Q.[Wei-Qiang], Lu, K.[Ke], Zhou, J.[Jianshe],
Data augmentation and directional feature maps extraction for in-air handwritten Chinese character recognition based on convolutional neural network,
PRL(111), 2018, pp. 9-15.
Elsevier DOI 1808
In-air handwritten Chinese character recognition, Convolutional neural networks, Directional feature maps, Data augmentation BibRef

Wu, Z.H.[Zhi-Hong], Qu, X.W.[Xi-Wen], Huang, J.[Jun], Wu, X.G.[Xuan-Gou],
In-air Handwritten Chinese Text Recognition with Attention Convolutional Recurrent Network,
MMMod23(II: 695-707).
Springer DOI 2304
BibRef

Mohammadi, S.[Shahram], Maleki, R.[Reza],
Real-time Kinect-based air-writing system with a novel analytical classifier,
IJDAR(22), No. 2, June 2019, pp. 113-125.
WWW Link. 1906
BibRef

Gan, J.[Ji], Wang, W.Q.[Wei-Qiang], Lu, K.[Ke],
In-air handwritten Chinese text recognition with temporal convolutional recurrent network,
PR(97), 2020, pp. 107025.
Elsevier DOI 1910
In-air handwriting, Handwritten chinese text recognition, Temporal convolutional recurrent networks BibRef

Gan, J.[Ji], Wang, W.Q.[Wei-Qiang], Lu, K.[Ke],
Compressing the CNN architecture for in-air handwritten Chinese character recognition,
PRL(129), 2020, pp. 190-197.
Elsevier DOI 2001
In-air handwriting, Handwritten Chinese character Recognition, Convolutional neural network, Network compression BibRef

Mohammadi, S.[Shahram], Maleki, R.[Reza],
Air-writing recognition system for Persian numbers with a novel classifier,
VC(36), No. 5, May 2020, pp. 1001-1015.
WWW Link. 2005
BibRef

Xu, S.[Songbin], Xue, Y.[Yang], Zhang, X.[Xin], Jin, L.W.[Lian-Wen],
A Novel Unsupervised domain adaptation method for inertia-Trajectory translation of in-air handwriting,
PR(116), 2021, pp. 107939.
Elsevier DOI 2106
In-air handwriting, Bi-directional inertia-Trajectory translation, Latent-level adversarial learning BibRef

Tsai, T.H.[Tsung-Hsien], Hsieh, J.W.[Jun-Wei], Chang, C.W.[Chuan-Wang], Lay, C.R.[Chin-Rong], Fan, K.C.[Kuo-Chin],
Air-writing recognition using reverse time ordered stroke context,
JVCIR(78), 2021, pp. 103065.
Elsevier DOI 2107
BibRef
Earlier: A1, A2, Only: ICIP17(4137-4141)
IEEE DOI 1803
Air writing recognition, Backward time-order stroke representation, 3D-sensor, Gesture-based interaction. Character recognition, Home appliances, Shape, Trajectory, Turning, Writing, reverse timeorder stroke representation BibRef

Zhao, Y.N.[Yi-Nan], Liu, T.[Tao], Feng, X.[Xiang], Zhao, Z.F.[Zhan-Feng], Cui, W.Q.[Wen-Qing], Fan, Y.[Yu],
New Application: A Hand Air Writing System Based on Radar Dual View Sequential Feature Fusion Idea,
RS(14), No. 20, 2022, pp. xx-yy.
DOI Link 2211
BibRef

Liu, W.Y.[Wen-Yuan], Du, H.[Huan], Li, B.B.[Bin-Bin], Li, J.C.[Jin-Cheng], Chang, Z.[Zhuo], Wang, L.[Lin],
RFPad: Enabling Device-Free Handwriting Recognition With a Tag Square,
HMS(53), No. 2, April 2023, pp. 325-334.
IEEE DOI 2303
Writing, Tracking, Handwriting recognition, Trajectory, Radiofrequency identification, Man-machine systems, Fuses, radio frequency identification (RFID) BibRef


Arsalan, M.[Muhammad], Santra, A.[Avik], Bierzynski, K.[Kay], Issakov, V.[Vadim],
Air-Writing with Sparse Network of Radars using Spatio-Temporal Learning,
ICPR21(8877-8884)
IEEE DOI 2105
Target tracking, Target recognition, Radar detection, Radar, Radar imaging, Radar tracking, Trajectory, Human-Machine Interface, DCNN Transposed BibRef

Kumar, P., Saini, R., Behera, S.K., Dogra, D.P., Roy, P.P.,
Real-time recognition of sign language gestures and air-writing using leap motion,
MVA17(157-160)
DOI Link 1708
Assistive technology, Feature extraction, Gesture recognition, Manuals, Real-time systems, Support vector machines, Three-dimensional, displays BibRef

Yana, B.[Buntueng], Onoye, T.[Takao],
Fusion Networks for Air-Writing Recognition,
MMMod18(II:142-152).
Springer DOI 1802
BibRef

Behera, S.K., Kumar, P., Dogra, D.P., Roy, P.P.,
Fast signature spotting in continuous air writing,
MVA17(314-317)
DOI Link 1708
Authentication, Sensors, Training, Writing BibRef

Xu, Z., Wang, W., Lu, K.,
MQDF with a novel covariance matrix estimation and discriminant LSRC, which is better for in-air handwritten Chinese character recognition,
ICIP16(3274-3278)
IEEE DOI 1610
Character recognition BibRef

Renakova, M., Tencer, L., Cheriet, M.,
ARTIST: ART-2A Driven Generation of Fuzzy Rules for Online Handwritten Gesture Recognition,
ICDAR13(354-358)
IEEE DOI 1312
fuzzy neural nets BibRef

Hannuksela, J.[Jari], Barnard, M.[Mark], Sangi, P.[Pekka], Heikkilä, J.[Janne],
Adaptive Motion-Based Gesture Recognition Interface for Mobile Phones,
CVS08(xx-yy).
Springer DOI 0805
BibRef
Earlier: A1, A3, A4, Only:
Motion-Based Handwriting Recognition for Mobile Interaction,
ICPR06(IV: 397-400).
IEEE DOI 0609
BibRef
Earlier: A1, A3, A4, Only:
A Vision-Based Approach for Controlling User Interfaces of Mobile Devices,
VHCI05(III: 71-71).
IEEE DOI 0507

See also Document Image Mosaicing with Mobile Phones. BibRef

Martin, J.[Jerome], Durand, J.B.[Jean-Baptiste],
Automatic Handwriting Gestures Recognition Using Hidden Markov Models,
AFGR00(403-409).
IEEE DOI 0003
BibRef

Chapter on Face Recognition, Detection, Tracking, Gesture Recognition, Fingerprints, Biometrics continues in
Biometrics, General Systems .


Last update:Mar 25, 2024 at 16:07:51